| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 475231000 | With means to limit overspeed of one output (e.g., lock-up clutch) | 53 |
| 20080242469 | LOCKABLE DIFFERENTIALS - The present invention provides user-selectable locking differential having a carrier coupled to a ring gear. The carrier includes a differential case that supports side bevel gears, which mesh with bevel pinion gears. The differential gear train is lockable by moving a locking ring into engagement with one of the bevel gears. In one embodiment, an expandable membrane seated in an annular groove of the differential case operates to urge the locking ring into engagement with the bevel gear. In another embodiment, a cup having a low-friction surface is placed in the annular groove of the case and a piston moves relative to the cup to urge the locking ring into engagement with the bevel gear. In addition, the locking ring, bevel gear, and the differential case each have engagement features that advantageously reduce the amount of friction between these respective components. | 10-02-2008 |
| 20080269002 | POWER TRANSMITTING APPARATUS - A power transmitting apparatus can be configured to switch between 2-wheel drive mode and 4-wheel drive mode and to lock and unlock a differential device. The power transmitting apparatus can comprise an input shaft connected to a driving power source i.e. an engine of vehicle and rotated around one rotational axis, a pair of output shafts of left and right sides for driving front wheels or rear wheels of vehicle when driving force is transmitted from the input shaft, a differential device arranged between the input shaft and the output shafts for absorbing the difference of rotation between the output shafts by differential action thereof, an operational shaft for performing connection and disconnection between the input shaft and output shafts by connecting and disconnecting the input shaft and the output shafts and also performing locking and unlocking of the differential means, a driving means for arbitrarily driving the operational shaft, and a case mounted on a vehicle and containing the differential means and the operational shaft characterized in that the input shaft extends from a rear side of the case facing toward the engine substantially in parallel with the operational shaft; and that the driving means is arranged on the rear side of the case. | 10-30-2008 |
| 20080318725 | Differential assembly with preload adjustment mechanism - A vehicle differential assembly may include a differential housing rotatable about an axis, a first output assembly, a pinion gear, and a first coupling assembly. The first output assembly may include a first side gear and a first output member. The first side gear may be disposed within the differential housing and may be rotatable about the axis. The first output member may be coupled to the first side gear for rotation therewith. The first coupling assembly may be engaged with the first output assembly and may include a coupling mechanism and a biasing member. The coupling mechanism may extend through an opening in the first output member and may be displaceable relative to the differential housing in a direction generally parallel to the axis. The biasing member may be engaged with the coupling mechanism and may urge the first output assembly into frictional engagement with the differential housing. | 12-25-2008 |
| 20090011890 | Locking differential including disengagement retaining means - A locking differential includes a pair of annular clutch members that are normally displaced apart to effect engagement between clutch teeth on the remote ends of the clutch members and corresponding gear teeth on the adjacent ends of a pair of side gears between which the clutch members are colinearly arranged. When one output shaft overruns the other by a predetermined amount, the clutch member associated with the overrunning output shaft is disengaged from its associated side gear. A retaining device retains the clutch members in the disengaged condition until the overrunning condition is terminated. In one embodiment, the retaining device is a cam arm and follower pin arrangement that is connected between the clutch members and operates in conjunction with a pair of friction rings. In a second embodiment, the retaining device comprises a pair of holdout rings that operate between the clutch members and the side gears. | 01-08-2009 |
| 20090029821 | CARRIER ASSEMBLY - A carrier assembly has a unique architecture which allows the carrier assembly to be defined by a very small packaging envelope. The carrier includes a main carrier housing with an internal cavity for receiving a differential and a carrier cover that closes the internal cavity once the differential has been installed. Examples of architectural features include a differential lock actuator that is mounted to the carrier cover, dowel pins that accommodate differential leg thrust loads and align the carrier cover relative to the main carrier housing, and bolt-in differential leg structures to facilitate pinion installation. Further, the carrier assembly can be utilized with an independent suspension to provide a increased jounce travel range. | 01-29-2009 |
| 20090088287 | DRIVE ASSEMBLY WITH INTERMEDIATE SHAFT AND COUPLING UNIT - The invention relates to a drive assembly for being used in the axle drive of a motor vehicle between an axle differential and a sideshaft. It comprises an intermediate shaft ( | 04-02-2009 |
| 20090215575 | HYDRAULICALLY LOCKING LIMITED SLIP DIFFERENTIAL - An improved hydraulically locking limited slip differential assembly for a drivetrain of a motor vehicle having a fluid pump external to a differential carrier and arranged for preventing slip between the wheels by selectively pressurizing a differential clutch internal to the carrier, and a controller arranged for selectively activating the fluid pump. | 08-27-2009 |
| 20090247350 | ELECTRONIC LOCKING DIFFERENTIAL WITH DIRECT LOCKING STATE DETECTION SYSTEM - An axle assembly with an electronic locking differential that employs a locking mechanism having components that are fixed to one another along an axis such that they co-translate with one another when the actuator that effects the locking and unlocking of the differential is operated. | 10-01-2009 |
| 20090258751 | HYDRAULIC COUPLING WITH DISCONNECT PUMP CLUTCH - A power transfer assembly for use in a motor vehicle and having a hydraulic coupling operable to transfer drive torque to a driveline in response to slip. The hydraulic coupling includes a transfer clutch, a clutch operator for engaging the transfer clutch, a fluid actuation system including a fluid pump for controlling movement of the clutch operator, and a magnetorheological pump clutch capable of selectively shifting the fluid pump between operative and inoperative states. | 10-15-2009 |
| 20090264243 | ANNULAR ACTUATOR HAVING PLUNGER CONFIGURED TO TRANSLATE THROUGH A VISCOUS LIQUID - An actuator having a linear motor and a plunger that is movable by the linear motor along an axis. The plunger includes an annular flange and a rim that is coupled to an outer periphery of the flange. The annular flange is oriented generally perpendicular to the axis. A plurality of apertures is formed through at least one of the flange and the rim. A locking differential and an axle assembly are also provided. | 10-22-2009 |
| 20100093481 | LOCKING DIFFERENTIAL HAVING IMPROVED CLUTCH TEETH - A hold-out ring type locking differential for an automobile or other type of motorized vehicle includes a differential case housing a number of components, such as a center driver positioned between holdout rings, clutch members, springs, spring retainers, side gears, and thrust washers. The center driver includes a center cam that engages inner teeth of the clutch members, which in turn include a tooth shape or profile for reducing stress and wear while increasing an operational life of the clutch member. The inner clutch teeth each have a top portion coupled to a base portion at an intersection point. The top portion extends from the intersection point to a free edge surface while the base portion extending from the intersection point continually into a root radius region. | 04-15-2010 |
| 20100234163 | FLUCTUATING GEAR RATIO LIMITED SLIP DIFFERENTIAL - A fluctuating gear ratio limited slip differential assembly is provided that includes a differential case and a pair of side gears disposed within the differential case. Each of the side gears may have a tooth with a first tooth flank. The differential assembly may further include a pinion shaft disposed within the differential case and a plurality of pinions supported by the pinion shaft. The pinions may be configured for engagement with the pair of side gears and each of the pinions may have a tooth with a second tooth flank. The first and second tooth flanks are configured to cause movement of the plane of action defining all contact points between the first tooth flank of the side gears and the second tooth flank of the pinions in a predetermined and/or controlled manner. | 09-16-2010 |
| 20100267512 | BLOCK MOUNTED LOCK-OUT MECHANISM - A differential is provided that includes a first and second side gear and a reaction block disposed between the first and second side gear. The differential further includes an engagement mechanism configured to have at least a portion of the engagement mechanism that is moveable from a retracted position to an extended position and a lock-out mechanism that is configured to engage the portion of the engagement mechanism. The lock-out mechanism is mounted to the reaction block. A reaction block for a differential in which a lock-out mechanism is mounted on the reaction block is also provided. | 10-21-2010 |
| 20100304916 | LOCKING DIFFERENTIAL SIDE GEAR TO FRICTION DISC UNLOADING - A differential is provided that includes a case, a cam side gear disposed proximate a first end of the case, and a side gear disposed proximate a second end of the case. The side gears have respective hubs. The differential further includes a first clutch pack disposed around the hub of the side gear. The differential further includes an annular engaging member disposed between the side gear and the case. | 12-02-2010 |
| 20110039653 | Differential System - A power take-off support portion, including a shaft hole and an outer side surface formed around the shaft hole, is formed on a transaxle housing. The outer side surface of the power take-off support portion is shaped to fit a power take-off casing supporting a power take-off shaft in a first direction. A power take-off casing includes a power take-off main casing member and a base casing member joined to each other. The base casing member is formed with an inner side surface and an outer side surface. The inner side surface and the outer side surface of the base casing member are shaped so that the power take-off shaft supported by the power take-off main casing member is oriented in a second direction different from the first direction when the inner side surface of the base casing member is fitted to the outer side surface of the power take-off support portion, and the outer side surface of the base casing member is fitted to the inner side surface of the power take-off main casing member. | 02-17-2011 |
| 20110111913 | DIFFERENTIAL LOCK ASSEMBLY INCLUDING COUPLER - A differential assembly includes an axle, a differential, a differential lock assembly, a selector, and a coupler. The differential is coupled with the axle and is configured to facilitate operation of the axle at an axle speed. The differential lock assembly is associated with the differential and is movable between locked and unlocked positions. The selector is movable between lock-initiate and unlock-initiate positions. The coupler is configured to selectively couple the differential lock assembly and the selector. The coupler is configured for operation in deactivated and activated modes. When the coupler is in the deactivated mode, the differential lock assembly and the selector are decoupled from each other. When the coupler is in the activated mode, the differential lock assembly and the selector are coupled together. | 05-12-2011 |
| 20110160017 | Structure for coupling differential assembly with drive shaft - A coupling structure is provided which can be used even when drive shafts cannot be provided on their end with a stopper. The coupling structure allows the drive shafts to be coupled to a differential assembly, requiring a manipulation only from outside the differential case to assure that the drive shafts are coupled to each other so as not to be movable in the direction of the axle shaft. The coupling structure includes a pair of right and left coupling heads and a coupling shaft. Each of the coupling heads has a coupling hole at the point of intersection of the axial line of pinion shafts provided in the differential assembly and the axial line of a pair of right and left drive shafts. The coupling heads are added to the drive shafts via a connector, respectively, to be rotatable about the axle shaft and not movable in the direction of the axle shaft, with the end portion of the coupling heads being disposed in a coupling ring of a cross shaft. The coupling shaft penetrates the through holes of the pair of pinion shafts and the coupling holes of the pair of right and left coupling heads. | 06-30-2011 |
| 20110190091 | VEHICLE DIFFERENTIAL GEAR - To prevent a differential lock status during operation, in a differential gear with a differential lock. A locking piece which rotates along with rotation of a differential case is attached to the differential case. A contact piece contactable with the locking piece is formed in a fork member that moves a lock pin to set the differential lock status. When the number of revolutions of the differential case becomes a predetermined number of revolutions, the locking piece moves to a position facing the contact piece, to regulate actuation of the fork member. Accordingly, the differential mechanism section is prevented from entry into the differential lock status. | 08-04-2011 |
| 20110230301 | VEHICLE FINAL REDUCTION GEAR UNIT - A vehicle final reduction gear unit includes a first friction brake positioned between a right case member which is a stationary body and a differential case which is a rotating body for applying a pressing force in an axial direction to generate a frictional force in order to put a brake on the differential case. A second friction brake occupies an area between the differential case and the right wheel and applies a pressing force in the axial direction to generate a frictional force in order to use a rotational difference to put the differential mechanism into a lock state. The second friction brake is placed within the radius of the first friction brake. A reduced size is accomplished and the final reduction gear unit can be reduced in length in the vehicle-transverse direction. Thus, a vehicle final reduction gear unit allowing a reduction in size can be provided. | 09-22-2011 |
| 20120149522 | DIFFERENTIAL MECHANISM HAVING MULTIPLE CASE PORTIONS - A differential mechanism includes a case including first and second portions, the first portion including a first surface interrupted by recesses, the second portion including a second surface interrupted by second recesses, contacting the first surface, and secured to the first portion, a pin extending though said recesses, and a ring gear secured to said portions and overlapping said surfaces and said pin. | 06-14-2012 |
| 20120252625 | LIMITED SLIP DIFFERENTIAL HAVING A DYNAMIC THRUST DEVICE - A limited slip differential comprising an input member and two output members and moreover having, built into a housing, at least one planet gear and at least one sun gear that are arranged so as to enable total or partial securing, rotatably, of two of the three input and/or output members by means of at least one thrust means on a securing means during a decrease in one of the output torques caused by grip loss or shifting into differential velocities. The differential also includes at least one second dynamic thrust means that is antagonistic to the thrust of the first thrust means, the antagonistic second dynamic thrust means being arranged so as to be activated during a shift of the differential into differential velocities. | 10-04-2012 |
| 20130029798 | ADJUSTING RING LOCK - A locking mechanism for a differential assembly includes an adjusting ring and a retainer. The adjusting ring is rotatable about an axis and has an inner peripheral surface and an outer peripheral surface. The adjusting ring is adjustable to set a desired preload. A plurality of pockets is formed within the outer peripheral surface, and the pockets are circumferentially spaced apart from each other about the axis. The retainer has a portion that at least partially extends into one of the pockets to prevent rotation of the adjusting ring about the axis once the desired preload is achieved. | 01-31-2013 |
| 20130130861 | CLUTCH ARRANGEMENT FOR A VEHICLE DRIVE TRAIN - A clutch arrangement has a rotary element which is mounted on a housing so as to be rotatable about a longitudinal axis and which defines a cavity. A clutch has a first clutch element and a second clutch element which can be coupled thereto, which clutch is arranged in the cavity. The first clutch element or the second clutch element is coupled to the rotary element. A fluidic actuator arrangement has a first and a second actuator element which can move relative to one another in order to activate the clutch. At least the first actuator element can be secured in a rotationally fixed fashion to the housing and extends from outside the rotary element into the cavity. | 05-23-2013 |
| 20130190126 | TWO-MODE PASSIVE LIMITED SLIP DIFFERENTIAL - A limited slip differential assembly includes first and second output gears in constant meshed engagement with a pinion gear. Each of the gears is rotatably positioned within a carrier housing. The second output gear is axially moveable. A rotary to linear motion actuator includes a rotatable first member and a second member axially moveable in response to rotation of the first member. A primary clutch drivingly interconnects the second output gear and the first member of the actuator. The primary clutch includes an apply plate coupled to the second output gear such that an axial force acting on the second output gear during torque transmission through the differential assembly is transferred to the primary clutch via the apply plate. A secondary clutch drivingly interconnects the second output gear and the carrier housing. The second member of the actuator provides an apply force to the secondary clutch. | 07-25-2013 |
| 20140004988 | DIFFERENTIAL DEVICE | 01-02-2014 |
| 20140141921 | DIFFERENTIAL CASE HAVING LOCK PINS IN-LINE WITH CLUTCH EAR GUIDES - A differential gear mechanism constructed in accordance to one example of the present disclosure can include a differential case, a clutch pack and a plurality of lock pins. The differential case can include a first differential case portion that defines a first output shaft opening and includes a plurality of clutch ear guides and a plurality of lock pin engaging surfaces. The clutch pack can include a plurality of annular plates that are interleaved between a plurality of annular friction disks. At least one of the annular plates and annular friction disks can include a plurality of radially extending plate ears that are received by the corresponding plurality of clutch ear guides. The plurality of lock pins can be received by the plurality of first lock pin engaging surfaces of the first differential case at locations in-line with the clutch ear guides. | 05-22-2014 |
| 20140148297 | DIFFERENTIAL DEVICE WITH LIMITED-SLIP DIFFERENTIAL MECHANISM - A differential device has a clutch which is provided between at least one side gear and a differential case to limit relative rotation of the side gear and the differential case. The clutch includes one or more inner pawl discs and outer pawl discs alternately arranged in an axial direction of the side gear between an inner peripheral surface of the differential case and an outer peripheral surface of the side gear. The side gear includes a gear-side fit part extending in the axial direction to which the inner pawl disc is concave-convex fitted. The differential case includes a case-side fit parts extending in the axial direction to which the outer pawl clutch is concave-convex fitted. At least one of the gear-side fit part and the case-side fit part is formed in a spiral shape angled with respect to the axial direction. | 05-29-2014 |
| 20140179484 | DIFFERENTIAL HAVING EXTERNALLY MOUNTED PLENUM - A differential gear mechanism can include a differential casing, a piston and an externally mounted plenum assembly. The differential casing can have a differential gear set configured to selectively rotate a first axle shaft and a second axle shaft. The piston can be slidably disposed in the differential casing and configured to actuate a clutch assembly. The externally mounted plenum assembly can include a plenum assembly housing, a hydraulic coupling and a motor mounted on the plenum assembly housing. The plenum assembly housing can define an axle opening configured to receive one of the first and second axle shafts therethrough. The hydraulic coupling can be arranged on the plenum assembly housing at the axle opening. The motor can be configured to pump hydraulic fluid from the externally mounted plenum assembly, through the hydraulic coupling and into the differential casing to act onto the piston. | 06-26-2014 |
| 20140235397 | LOW STROKE LENGTH LOCKING DIFFERENTIAL WITH HIGH LOCKING ENGAGEMENT LENGTH - A differential, comprising a gear case, a side gear, an actuator, and a collar. The gear case comprising a central axis and recesses. The side gear configured to rotate around the central axis. The side gear comprising radially outward-extending locking members comprising side gear segments separated by plural grooves. The actuator surrounding the central axis. The collar configured to translate bi-directionally along the central axis. The collar comprising ears and radially inward-extending locking members comprising collar segments separated by plural grooves. The actuator is configured to move the collar relative to the side gear to move the ears axially in the recesses. When the actuator moves the collar to a locked position, the collar segments are configured to engage the side gear segments. When the actuator moves the collar to an unlocked position, the side gear segments are configured to pass through the grooves of the radially inward-extending locking members. | 08-21-2014 |
| 20140274542 | LOCKING COLLAR FOR VEHICULAR DIFFERENTIAL - A locking collar for association with a differential and configured to facilitate operation of vehicle in one of a two-wheel drive mode, a four-wheel drive mode, and a four-wheel drive mode with a locked differential is provided. The locking collar includes a first set of internal splines. | 09-18-2014 |
| 20140274543 | ELECTROMAGNETIC CLUTCH UNIT, FOUR-WHEEL-DRIVE VEHICLE, CONTROL METHOD FOR THE ELECTROMAGNETIC CLUTCH UNIT, AND CONTROL METHOD FOR THE FOUR-WHEEL-DRIVE VEHICLE - An electromagnetic clutch unit includes: a friction mechanism including a first friction member and a second friction member; a lock sleeve connected to an input shaft member so as to be non-rotatable relative to the input shaft member, and movable in an axial direction of the electromagnetic clutch unit between a first position at which the lock sleeve is engaged with only the input shaft member and a second position at which the lock sleeve is engaged with both an output shaft member and the input shaft member; and a pressing member that constitutes a magnetic path extending over the pressing member and the second friction member, and that presses the lock sleeve with the electromagnetic force to move the lock sleeve from the first position to the second position. | 09-18-2014 |
| 20140309075 | DIFFERENTIAL GEAR - A differential gear having a gear housing, an epicyclic gear housing which is arranged in the gear housing in a manner allowing rotation about a gear axis, a planetary carrier which is arranged in the epicyclic gear housing coaxial to the gear axle, a first output sun gear, a second output sun gear, a planetary arrangement accommodated in the planetary carrier for the purpose of coupling the two output sun gears in a manner allowing rotation in opposite directions, a brake device having a brake disk pack for the purpose of generating a coupling torque which couples the planetary carrier to the epicyclic gear housing, and an actuating mechanism for the purpose of generating an axial force which engages the brake device. The planetary arrangement comprises multiple revolving planets which as such are able to rotate about planetary axes which are oriented parallel to the gear axle. | 10-16-2014 |
| 20150080166 | LOCKING DIFFERENTIAL - A selectively locked differential has a locked configuration in which both side gears are independently locked to the differential casing so that torque is not transmitted through the pinion gears. The locking of the side gears is accomplished by generally cylindrical, ring-shaped structures with castellations on one axial end surface of each structure. These castellations selectively interfit with rotatably fixed castellations of secondary structures fixed to the differential casing, such that the ring-shaped structures define a mechanically interconnected, zero-slip arrangement with respect to the rotationally fixed secondary structures when the differential is in the locked configuration. | 03-19-2015 |
| 20150080167 | Transmission Device and Drive Train of a Vehicle - A vehicle drive train and a transmission device ( | 03-19-2015 |
| 20150111684 | DIFFERENTIAL HAVING PISTON HOUSING INTEGRATED WITH DIFFERENTIAL CASE - A differential gear mechanism constructed in accordance to one example of the present disclosure can include a differential casing having a first differential case portion that defines a first output shaft opening and a second differential case portion that defines a second output shaft opening. The first differential case portion can include an annular pocket formed thereon and defined by an outer circumferential wall, an inner circumferential wall and an end wall. A piston can be slidably disposed in the annular pocket and configured to actuate a clutch assembly. A first and a second side gear can be rotatably mounted within the differential casing. The first and second side gears can be co-axially aligned along an axis of rotation of the differential casing. | 04-23-2015 |
| 20160033025 | CLUTCHED COMPONENT - The present teachings provide for a clutched component including a first member, a second member, and a clutch. The first member can have an output portion. The second member can have an input portion that is disposed within the output portion. The clutch can include a plurality of first lock members and a control member for coordinating radially inward movement of the first lock members to drivingly couple the output portion and the input portion. | 02-04-2016 |
| 20160160981 | LOCKING DIFFERENTIAL ASSEMBLY - A locking differential assembly having a locking dog that is mounted in a differential case in a manner that permits the locking dog to be translated along an axis between a first position, in which the locking dog is disengaged from a side gear in the differential case, and a second position in which the locking dog is engaged to the side gear. The locking dog is coupled to the differential case in a manner that permits an increasing range of rotation of the locking dog relative to the differential case with axial movement of the locking dog toward the second position. An axle assembly with the locking differential assembly and a related method for forming a locking differential assembly are also provided. | 06-09-2016 |
| 475232000 | Centrifugal actuator | 2 |
| 20090088288 | DIFFERENTIAL LIMITING APPARATUS - it is an object of the present invention to provide a differential limiting apparatus increasing the capacity of the clutch to obtain the enough large differential limiting force. | 04-02-2009 |
| 20150105210 | Mechanically Actuated Positive Locking Differential - A differential comprises a first side gear and a second side gear facing the first side gear. A pinion gear set can be between the first side gear and the second side gear. A cam plate comprises a ramped side facing a ramped side of the first side gear. A first lock plate comprises a first side abutting a second side of the cam plate. The first lock plate further comprises a toothed side. A second lock plate comprises a toothed side facing the toothed side of the first lock plate. | 04-16-2015 |
| 475233000 | Lock-up clutch between pinion and pinion carrier | 4 |
| 20090062055 | LOCKING DIFFERENTIAL - The present invention relates to a differential gear equipped with a selectively controllable locking device. Said locking device is self energizing, i.e. it utilizes the differentiation energy (i.e. the possible torque imbalance) to self-lock on its own accord. The control signal is therefore not needed to lock the locking device but rather to selectively control it not to lock itself. Said control signal is designed to, separately for each of the two possible differentiation directions, allow or not allow the locking device to lock. In this way the differential gear will get four different working modes. Said working modes are respectively; open regardless of differentiation direction; open in one differentiation direction but self-locking in the other direction; open in the other direction but self-locking in the first one; self-locking regardless of differentiation direction. A control unit is supplied with sensor data of the present “driving situation”. Said control unit has a steering strategy. With the right steering strategy it can regulate the control signal so as to admit the differential gear to equalize the torque at each output shaft for as long as possible but still to practically eliminate the risk of one wheel spin. | 03-05-2009 |
| 20120238397 | LIMITED SLIPPERY DIFFERENTIAL FOR REMOTE CONTROL MODEL VEHICLE - A limited slippery differential used in a remote control model vehicle is disclosed to include a housing, a main gear mounted on one side of the housing, two transmission gears mounted inside the housing, and a differential unit mounted in the housing. When the remote control model vehicle is moving over a turn at a high speed, bevel gears of the differential unit are forced into positive engagement with respective transmission gears to reduce the speed of the vehicle wheels that are suspending in the air. When the remote control model vehicle moved over the turn, the bevel gears are forced away from the transmission gears by respective spring members, enabling engine power to be normally transferred to the wheels. | 09-20-2012 |
| 20120244987 | LOCKING DIFFERENTIAL ASSEMBLY - A locking differential having a movable locking ring that can selectively engage a gear of the differential to lock or unlock the differential is disclosed. The locking ring is moved by a pressure source, such as a pneumatic pressure source, and a spring. The locking ring engages a fixed annular ring in the case of the differential. Two O-rings create a seal between sides of the fixed annular ring and arms of the locking differential. | 09-27-2012 |
| 20140121055 | LOCKING DIFFERENTIAL - A selectively locked differential has a locked configuration in which both side gears are independently locked to the differential casing so that torque is not transmitted through the pinion gears. The locking of the side gears is accomplished by generally cylindrical, ring-shaped structures with castellations on one axial end surface of each structure. These castellations selectively interfit with rotatably fixed castellations of secondary structures fixed to the differential casing, such that the ring-shaped structures define a mechanically interconnected, zero-slip arrangement with respect to the rotationally fixed secondary structures when the differential is in the locked configuration. | 05-01-2014 |
| 475234000 | By axial movement of output gear | 6 |
| 20090192008 | DIFFERENTIAL GEAR UNIT - A differential gear unit has a pinion gear that can spin as well as revolve, a differential case that has a pinion retaining portion that supports the pinion gear, and a pair of side gears that mesh with the pinion gear. Frictional force generated at a portion where the pinion gear contacts the pinion retaining portion when the rotation speed of one side gear is faster than the rotation speed of the other side gear is different from the frictional force generated between the pinion gear and the pinion retaining portion when the rotation speed of the one side gear is slower than the rotation speed of the other side gear. | 07-30-2009 |
| 20100093482 | LOCKING DIFFERENTIAL ASSEMBLY FOR A MODEL VEHICLE - A locking differential assembly for use in a toy model vehicle. This is accomplished by mounting a locking clutch assembly on an output shaft of a differential gear carrier having an external face. The locking clutch assembly includes a slider member that may be configured to move along the output shaft to engage the external face to disable a differential action of the differential gear carrier. | 04-15-2010 |
| 20110021306 | DIFFERENTIAL HAVING IMPROVED TORQUE CAPACITY AND TORQUE DENSITY - A locking differential for an automotive vehicle including a housing and a differential mechanism supported in the housing. The differential mechanism includes a pair of clutch members where each of the clutch members presents an inwardly directed face. Each face includes a groove disposed in spacing relationship with respect to the other. A cross pin is received in the grooves and is operatively connected for rotation with the housing. The clutch members are axially moveable within the housing so that they may engage respective clutch members coupled to a pair of axle half shafts. Each of the grooves in the clutch members defines a first predetermined radius of curvature. The cross pin defines a second radius of curvature wherein the first radius of curvature of the groove is greater than the second radius of curvature of the cross pin such that contact between the cross pin and the groove defines a line extending along the axis of the cross pin. | 01-27-2011 |
| 475235000 | With spring bias on gear or clutch | 3 |
| 20090093334 | Method and Kit to Convert an Open Differential to a Limited Slip Differential - A kit and method of using the kit to convert an open differential in a golf cart to a limited slip differential by replacing the side gears with side gears containing an integrated clutch surface that engage a spring loaded case containing an integrated clutch surface. | 04-09-2009 |
| 20090197732 | LOCKING DIFFERENTIAL HAVING A SPLIT-CENTER DRIVER - A locking differential includes a housing with an interior chamber in which a two-piece split-center driver is located. The split-center driver is positioned on opposite sides of a cross-pin assembly. A pair of axially spaced output shafts extend from the interior chamber and are coupled to a pair of side gears. The split-center driver gear and a centered cam member are arranged co-axially about the adjacent ends of the output shafts, and annular clutch members are operable to disconnect an overrunning output shaft | 08-06-2009 |
| 20100075797 | Limited Slip Differential - A limited slip differential for use in model cars includes a pair of pressure plates installed within a housing and a differential element is located between the pressure plates, so that when the rotation speed of a drive wheel of the model car increases, the differential element will move toward against the pressure plates causing gear racks of the differential element to frictionally contact the shafts of the helical gears on a cross shaft. This lowers the rotation speed of the helical gears, while at the same time separately lowers the rotation speed of the drive wheel, and raises the rotation speed of the other drive wheel allowing the model car to be able to turn at high speed. | 03-25-2010 |
| 475236000 | Particular gear shape or tooth interaction limits overspeed | 1 |
| 20100113208 | LOCKING DIFFERENTIAL WITH SHEAR PIN/SPRING ASSEMBLY - A clutch assembly for a locking differential includes driving clutch members engaged with driven clutch members in a preloaded configuration to provide a minimum amount of preload there between during low torque conditions. The driving clutch members are biased relative to each other with shear pin/spring assemblies located within bores of the driving clutch members. During assembly of the clutch assembly, the shear pin/spring assemblies may be positively locked down within the bores with a removable tool. In one embodiment, the removable tool is inserted into a small opening extending through the driving clutch member and the tool engages an annular groove on a shear pin of the shear pin/spring assembly. Further, the clutch assembly may include driving clutch members having drainage openings that may help prevent hydraulic lock during operation of the locking differential. | 05-06-2010 |
| 475237000 | Manual actuator | 1 |
| 475238000 | Friction clutch | 1 |
| 20080254931 | Differential Device for Vehicle - A differential device includes a differential casing | 10-16-2008 |
| 475240000 | Spring bias on overspeed limiting means | 2 |
| 20160252172 | INBOARD SPRING ARRANGEMENT FOR A CLUTCH ACTUATED DIFFERENTIAL | 09-01-2016 |
| 475241000 | Helically coiled spring | 1 |
| 20100022345 | AXLE ASSEMBLY - A drive assembly and method of braking the assembly is disclosed. The assembly has a first clutch pack that selectively brakes a driven shaft. The braking torque is transmitted to a second clutch pack in a differential where it can be distributed equally or unequally between two axle half shafts. | 01-28-2010 |
